Selection of herbal therapeutics against deltatoxin mediated Clostridial infections.

Clostridium perfringens (a versatile pathogenic bacterium) secretes enterotoxins (the deltatoxin, virulent factor) and causes food borne gastroenteritis and gasgangrene. The organism was isolated and characterized from improperly cooked meat and poultry samples. The isolated organism showed multiple drug resistance indicating that the treatment is challenging. Hence, there is need for improved therapeutic agents. The rational design of improved therapeutics requires the crystal structure for the toxin. However, the structure for the toxin is not yet available in its native form. Thus, we modeled the toxin structure using α- hemolysin of Staphylococcus aureus (PDB: 3M4D chain A) as template. The docking of the toxin with the herbal extract curcumin (1,7-bis(4-hydroxy-3- methoxyphenyl)hepta-1,6-diene-3,5-dione) showed a binding energy of -8.6 Kcal/mol, in comparison to the known antibiotic Linezolid with binding energy of -6.1 Kcal/mol. This data finds application in the design and development of novel compounds against the deltatoxin from Clostridium perfringens.

dium perfringens.

Background:

Clostridium perfringens is a gram-positive, anaerobic, spore forming and pathogenic bacterium.The bacterium belongs to major intestinal flora of human and animal.The pathogenesis of the organism includes gas gangrene, necrotizing fasciitis, diarrhea brain abscess in pigs, calves, chickens, and other animals.The rapid generation time and heat resistance ability makes the organism a major food-borne pathogen [1].The outbreak of Clostridium perfringens is regarded as the second most bacterial food poisoning in USA and UK, where cases occurring annually are 250,000 and 85,000 respectively [2].Economic losses due to medical care and productivity loss from single food poisoning amount to several hundred million dollars per year [3].The major virulent factors involved in gastroenteritis and other infections are extracellular toxins produced by the bacteria.C. perfringens is classified into five serotypes (A, B, C, D and E) based on the type of enterotoxins.Type A and C strains are

e most dangerous pathogens as it is implicated in human diseases.Type A str
ins cause the most destructive disease called gas gangrene which is characterized by rapid destruction of tissue with the production of gas.Type B, C, D and E are mainly responsible for veterinary infections [4].Deltatoxin is one of the five hemolysins released by most of the Clostridium perfringens which plays most important role in the gasgangrene and gastroenteritis.The organism is developing resistance to most conventional classes of known antibiotics and has emerged as "superbugs".So there is an emergency to address the problem by finding better therapeutic substances which could replace the antibiotics.The active substances present in many medicinal plants could be used as therapeutic alternatives against Clostridial infections [5].The native structure of the deltatoxin was not reported in the structural databases.Homology modeling is a computer aided approach to generate all possible folds and conserved motifs responsible for the actual function of proteins.It has proven to be the method of choice to generate a reliable 3D model of a protein from its amino acid sequence (target) by identifying a homologous protein with a known structure (template).The comparative modeling of hypothetical protein consists of target selection, template identification, fold assignment, structural alignment, model building and model evaluation [6].Prediction of re

ptor-ligand interaction is the fundamental
oncept of drug designing.Structure prediction enables to explain the mechanisms of interaction between G-protein coupled receptors and variety of ligands, enzymes, ion channels and current drugs.3D model prediction and target identification have profound scope in the field of new generation drug development process [7].The prediction of putative protein-ligand binding conformations by computational docking has pronounced impact for discovering new generation lead molecules.


Methodology: Microbial characterization and study of multidrug resistance:

Clostridium perfringens is a hyperthermophil

bacteria and it survives in an
kind of food items cooked improperly.A total of 32 fried samples of meat (10 samples), chicken and poultry (12 samples each) were collected from different regions of Coimbatore, India.The presumptive detection of Closrtidium perfringens was carried out by pour plate method on selective Tryptose Sulphate Cycloserine (TSC) agar.The confirmed and completed tests were performed by standard microbiological and biochemical tests.There are reports that many bacteria developed multiple drug resistance towards conventionally used antibiotics and emerged as "superbugs".The antibiotics sensitivity testing with the isolated organisms is a critical step to understand the drug resistance and new drug discovery mechanisms.Hence, the isolated organism is tested for antibiotic sensitivity patterns by Kirby-Bauer disc diffusion method.


Computer aided drug discovery:

Since the isolated organism showed resistance to many antibiotics, the drug of choice against the infection became limited.Thus, a novel approach has to be developed to design new therapeutic substances; one such method is called computer aided screening.Deltatoxin is the major virulent factor and probable drug target.So the structural studies and fold recognition of deltatoxin is critical step to develop new lead molecules.But the crystal structure of deltatoxin is not present in its native form.The 3D structure of toxin could be modeled by comparative modeling using its amino acid sequence.


Sequence retrieval and template selection:

The amino acid sequence of deltatoxin was retrieved from GenBank (GI: 194719328) [8].Since the quality of the model depends on the availability of good template, it is important to identify

he best template structure.The best homolo
ous protein was selected by PSI-BLAST [9] based on the percentage of identity and similarity.A multiple sequence analysis has been performed by T-COFFEE [10] to analyze the evolutionary conservation among the sequences.The phylogenetic characterization was carried out using NJ PLOT [11].All these steps are essential factors for the selection of best template.


Model building and validation:

The crystal structure of drug target (Deltatoxin) is not available in its native form.Thus, the protein was modeled using MODELLER 9v9.It is based on satisfaction of spatial restraints derived from the alignment and Probability Density Functions (PDFs)


Selection of ligands and docking studies:

Since the organism has developed resistance towards many conventionally used antibiotics, it is essential to screen for better therapeutic substances.It has been known that many herbal based compounds have high druggish activity and binding affinity towards deltatoxin.Selection and screening of molecules with good pharmacophoric and druggish activity is the critical st

in computer
aided drug screening.Based on extensive literature studies, 70 plant extracts and 5 antibiotics were identified.The drug likenesses and pharmacophoric features of ligands were studied by Lipinski's rule of 5. Protein ligand docking was performed using AUTODOCK 4.2 [20] by Lamarckian genetic algorithm.The catalytic and binding site of the target has been identified by auto grid.The structure and chemical properties of the active site allow the recognition and binding of the ligand.Around 2,500,000 bioactive conformations were generated by 10 iterations and the best conformations were screened in terms of lowest binding energy generated in the clustering histogram.


Discussion:

The improper cooking of food items, especially meat and meat products, results in the survival of hyperthermophilic Clostridia which may cause gastroenteritis and other health hazards.We have isolated and characterized Clostridium perfringens from fried samples of meat products (Table 1 See supplementary material).We have noticed that the food samples were consumed by lots of people without any hygienic practices that may result in sudden outbreak of food poisoning.The isolated organism from the collected samples is illustrated in Figure 1A; the organism produces black colored colonies on the selective TSC medium.The virulent factors of the organism are enterotoxins, mainly delta, which is characterized by lecithinase activity, a zone of inhibition around the colonies due to toxin production, is illustrated in Figure 1B, The major problem pointed in this study is the necessity to develop other therapeutic substances, because the isolated organism is resistant to many antibiotics and treatment with conventional drug becomes challenging in future.We have tested the antibiotic sensitivity patterns of isolated bacteria, illustrated in  Computer aided screening is an ideal platform to develop novel compounds against many diseases.As mentioned deltatoxin is the major virulent factor for the infections caused by Clostridium perfringens.The 3D structure of deltatoxin is not available but it is very essential for rational drug discovery.We have identified all the possible folds and generated a 3D model of deltatoxin from its protein sequence (GenBank, GI: 194719328) by comparative modeling.The protein has 318 amino acids and encodes transposase genes (957 bps) which act as major functional element of the toxin.) and the amino acid residues interacting are LYS140, THR142, THR148, ASN186, THR 187, LEU246 and SER252 making the interaction more stronger and stable (A).The binding energy of docked complex was found to be -8.6 kcal/mol implies more stable docking.The interaction of Linezoid and deltatoxin is stabilized by only one H bond (green colored stick of 2.0 A o lengths) and the interacting residues are ASP184, THR185, THR187, THR201, SER 244, SER 245 and LEU246 indicating that the interaction less stronger than that of Curcumin.The binding energy of the docked complex was found to be -6.08 kcal/mol, which indicates that the docked complex is less stable compared to curcumin.

Docking simulations are the best method to study receptor -ligand interactions in drug designing.The docking was performed to compare the binding efficiency of antibiotics and herbal compounds towards deltatoxin.There are reports on the antimicrobial potentials of many plant compounds against Clostridial infection.In this perspective, 70 herbal extracts were identified and screened by Lipinski Rule of 5, implies that molecules should contain less than 10 Hbond acceptors and 5 Hbond donors.The calculated logP value should be less than 5 and the molecular weight should be less than 500 g/mol.All compounds satisfied the rule and the molecules were subjected to docking studies (Table 2 See supplementary material).Out of 70 molecules tested, Curcumin, Eugenol, Palm tine, Eucalyptol and Chrysin showed best interactions with deltatoxin whose binding energies are -8.60 kcal/mol, -6.18 kcal/mol, -5.72 kcal/mol, -5.69 kcal/mol and 5.42 kcal/mol respectively.Curcumin, a curcuminoid, isolated from Indian spice turmeric (Curcuma longa) was the best inhibitor than the antibiotic Linezoid.The docked complex is stabilized by two hydrogen bonds and the interacting amino acids are LYS140, THR142, THR148, ASN186, THR 187, LEU246 and SER252 which are illustrated in Figure 3A.The interactions were strong because of more number of interacting residues, number of hydrogen bonds and shorter bond length.The antibiotics Linezoid, Clindamycin, Penicillin, Chloramphenicol and Metronidazole were docked with deltatoxin.Linezoid and Clindamycin showed best interactions to the target protein with binding energies of -6.08 kcal/mol and -5.69 kcal/ mol respectively.The interacting residues between Linezolid and deltatoxin were ASP184, THR185, THR187, THR201, SER 244, SER 245, LEU246 and it is stabilized by one hydrogen bond illustrated in Figure 3B.The interactions with the antibiotics were not stable enough to produce good docked conformations compared to plant derived molecules.The docking studies clearly explains Curcumin is interacting more efficiently with deltatoxin than antibiotic Linezolid and it could be a new lead molecule against the deltatoxin mediated clostridial infection.Similarly the other plant molecules tested in the study can also be used as therapeutic alternatives because it is more effectively interacting with deltatoxin than antibiotics.


Conclusion:

The study concluded that computer aided drug discovery is an emerging and effective alternative for identification of novel therapeutic substances.



[7].The X-ray crystal structure of α-hemolysin [12] of Staphylococcus aureus (PDB ID: 3M4D, Chain A) was identified as the best template.The initial model building and structural alignment was performed and the modeled protein was visualized using UCSF CHIMERA [13].Energy minimization of the generated model was done through CHARMM [14], Quasi-Newton Mechanics [15] and GBSA Surface Potential [16].Parameters like covalent bond distances and angles; stereo-chemical validation and atom nomenclature were validated using PROCHECK [17] and overall quality factor of non-bonded interactions between different atoms types w

e calculated
by ERRAT program [18].DaliLite [19] is used to calculate Root Mean Square Deviation (RMSD) between the set of targets and template protein to see how much modeled protein deviates from the template protein structure.The hypothetical model was then deposited to Protein Model Data Base.


Figure 1 :
1
Figure 1: Clostridium perfringens, a notorious pathogenic bacterium, isolated from improperly cooked food samples.(A) The growth is indicated by the formation of black colored colonies on selective medium.(B) The enterotoxin production of the organism characterized by lecithinase activity, an opaqueness and halo around the colonies in the egg-yolk milk agar.(C) Multidrug resistance patterns of the isolated organism towards Amphotericin B (20 mcg/disc), Polymyxin B